Abstract
Artificial light is increasing in coverage across the surface of our planet, impacting the behavioral ecology of many organisms. Attraction to sources of artificial light is a significant threat to certain fledgling shearwaters, petrels (Procellariidae), and storm-petrels (Hydrobatidae) on their first nocturnal flights to the sea. Disorientation by light can cause these birds to crash into vegetation or manmade structures, potentially resulting in death from physical injury, starvation, dehydration, predation by introduced predators, or collisions with vehicles. We developed a GIS-based method to model the intensity of artificial light that fledgling procellariids and hydrobatids could view en route to the ocean (to estimate the degree of threat that artificial light poses to these birds) and present two models for the island of Kauai as examples. These models are particularly relevant to the federally threatened Newell's Shearwater, or `A`o (Puffinus newelli), of which >30,000 fledglings have been collected in response to disorientation by lights on Kauai during the past 30 years. Our models suggest that there are few to no portions of Kauai from which young birds could fledge and not view light on their post-natal nocturnal flights, which is concerning given evidence of a Newell's Shearwater population decline. In future work using this technique, night light intensity layers could be altered to model the effects of modified coastal light conditions on known and potential procellariid and hydrobatid breeding locations. Furthermore, certain methods presented herein may be applicable to other seabirds and additional taxa in which attraction to anthropogenic light poses a serious threat, including migratory passerines and hatchling marine turtles. Components of this modeling approach could potentially be used to spatially estimate effects of other point-source threats to ecological systems, including sound and air pollution.
Highlights
Artificial light is increasing rapidly across the surface of our planet (Cinzano et al 2001) and its impacts on organism ecology include numerous examples of interference with the typical behaviors of certain animals (Longcore and Rich 2004)
One of the most familiar examples of fallout occurs each autumn on the island of Kauai, Hawaii, as fledgling Newell’s Shearwaters (`Ao [Puffinus newelli]), Hawaiian Petrels (`Uau [Pterodroma sandwichensis]), and Band-rumped StormPetrels (`Akeake [Oceanodroma castro]) take their maiden flights to sea (Reed et al 1985, Telfer et al 1987, Ainley et al 2001)
We developed a GIS-based method to estimate the total intensity of artificial light that young procellariids and hydrobatids, fledging from any terrestrial region of interest, could potentially view along a least-cost path on their initial nocturnal flights to sea
Summary
Artificial light is increasing rapidly across the surface of our planet (Cinzano et al 2001) and its impacts on organism ecology include numerous examples of interference with the typical behaviors of certain animals (Longcore and Rich 2004). Reason for this behavior remains largely unknown This disorientation can cause them to fall to the ground following exhaustion and/or crashing into manmade structures and vegetation (a phenomenon termed ‘‘fallout’’). Once grounded, they are vulnerable to starvation, dehydration, predation by introduced mammals, and collisions with vehicles, which can result in large numbers of injured and dead individuals (Reed et al 1985, Telfer et al 1987, Le Corre et al 2002, Rodriguez and Rodriguez 2009). Many individuals are located, banded, and released each season, but their fate after release is unknown (Duffy 2010)
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